UMLS:C0024523 - FACTA Search

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Query: UMLS:C0024523 (malabsorption)
7,319 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Disturbances of the central and peripheral nervous system in Crohn's disease can be directly or indirectly caused by the disease itself or by the treatment. The first mentioned disturbances are very seldom. Cerebral arterial and venous thromboses can be attributed to hypercoagulation. Malabsorption of vitamin B 12 or folic acid can lead to a subacute combined degeneration of the spinal cord, sometimes in combination with a polyneuropathy and an encephalopathy. Spinal abscesses very seldom occur. An opticusneuropathy can be caused either by vasculitis or by a lack of vitamin A and/or vitamin B. Polyneuropathies in Crohn's disease which are not induced by drugs are manifested as mononeuritis multiplex or as symmetrical sensory neuropathy. An autoimmune process is being discussed as the probable cause of there diseases. In some cases large doses and prolonged administration of metronidazole can lead to cerebral dysfunctions with state of confusion, alterations of consciousness, cerebral convulsions and cerebellar syndrome. Most of these symptoms disappear rapidly after this drug is not longer administered. In long-term administration of metronidazole 10-50% of the patients develop a sensory polyneuropathy with a total dosis of at least 22.5 g, but mostly above 60 g. After the use of metronidazole is stopped, it takes a substantial period of time until there is a full recovery from the symptoms.
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PMID:[Neurologic concomitant diseases in Crohn disease]. 128 45

Magnesium is an essential cofactor for many enzymatic reactions, especially those involved in energy metabolism. Deficits of magnesium are prevalent due to inadequate intake or malabsorption and due to the renal loss of magnesium that occurs in certain disease states (alcoholism, diabetes) and with drug therapy (diuretics, aminoglycosides, cisplatin, digoxin, cyclosporin, amphotericin B). Protracted deficits of magnesium in humans and animals result in neurological disturbances, including hyperexcitability, convulsions and various psychiatric symptoms ranging from apathy to psychosis, some of which can be reversed with magnesium supplementation, others requiring correction of the dysregulation mechanism. Although the role of magnesium in neuronal function is not completely understood, a lowering of CSF or brain magnesium can induce epileptiform activity and there is an association between decreased CSF magnesium and the development of seizures. CSF concentrations of magnesium are normally higher than magnesium plasma ultrafiltrate (diffusible) concentrations due to the active transport of magnesium across the blood-brain barrier. Under conditions of magnesium deficiency, CSF concentrations decline, although this decline lags behind and is less pronounced than the changes observed in plasma magnesium concentrations. Decreases in CSF magnesium concentrations correlate with the alterations observed in extracellular brain magnesium concentrations in animals following the dietary deprivation of magnesium. CSF magnesium concentrations can readily be repleted following magnesium supplementation, although high dose magnesium therapy, such as that used in the treatment of convulsions in eclampsia, will only increase CSF magnesium concentrations to a very limited degree (approximately 11-18 per cent) above physiological concentrations. Greater increases in CSF magnesium may occur in neonates since neonatal swine, following treatment with magnesium, have CSF magnesium concentrations that are similar to their plasma concentrations. There has been a recent resurgence of interest in magnesium deficiency and its neurological consequences due to the finding that magnesium, at physiological concentrations, blocks N-methyl-D-aspartate (NMDA) receptors in neurones. NMDA receptors are normally activated by glutamate and/or aspartate which represent the principal neurotransmitters for excitatory synaptic transmission in vertebrate CNS. Magnesium deficiency produces epileptiform activity in the CNS which can be blocked by NMDA receptor antagonists. Other mechanisms, including alterations in Na+/K(+)-ATPase activity, cAMP/cGMP concentrations and calcium currents in pre- and postsynaptic membranes, may also be at least partially responsible for the neuronal effects associated with low brain magnesium. Further studies are necessary to increase our understanding of the neurological implications of magnesium deficit in the central nervous system.
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PMID:Brain and CSF magnesium concentrations during magnesium deficit in animals and humans: neurological symptoms. 129 67

The occurrence of chronic mucocutaneous candidiasis accompanying polyglandular autoimmune syndrome type I is reported in a female aged 13. Apart the candidiasis, since the age of 3, she had convulsions beginning at 6, cataract at 9, teeth abnormalities, and basal ganglia calcifications. Laboratory data confirmed the diagnosis of hypoparathyroidism. This picture was accompanied by intestinal malabsorption, leading to a state of progressive malnutrition, with intense hypoalbuminemia and anemia. Although the pathophysiology of malabsorption, in these cases, is still not clear, the therapeutic response to pancreatin, in the present case, suggested pancreatic insufficiency, reinforced by the normal d-xylose test and the small intestinal biopsy with inexpressive result.
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PMID:[Polyglandular autoimmune type I syndrome with hypoparathyroidism, chronic mucocutaneous candidiasis and intestinal malabsorption]. 213 67

A case of 78-year old man with megaloblastic anemia occurring 20 years after partial gastrectomy is reported. Since about 2 years earlier he had an episode of convulsion, and he had been on anti-convulsants (diphenylhydantion, phenobarbital) until admission. Physical examination revealed a pale lean man with polyneuropathy and mental impairment. Laboratory findings revealed WBC 3100/microliters, RBC 187 X 10(4)/microliters, HB 7.9 g/dl, MCV 124.4 microns3, MCH 42.7 micrograms, platelet counts 15.7 X 10(4)/microliters, serum vitamin B12 (VB12) 380 pg/ml, and serum folic acid 5.1 ng/ml. Serum autoantibodies to intrinsic factor (IF) and parietal cells were positive. Bone marrow examination revealed erythroid hyperplasia and megaloblastic changes. Schilling test revealed impaired absorption of VB12 with or without IF, but X-ray study of the small bowels was unremarkable. Treatment with intramuscular cyanocobalamin resulted in a rapid clinical improvement. A repeat Schilling test after 4 months of therapy showed a normal VB12 absorption in the presence of IF. These findings suggest that VB12 malabsorption of the 1st Schilling test was due to intestinal dysfunction caused by the VB12 deficiency state itself, and the improvement of VB12 absorption with IF after therapy suggests a pathogenesis similar to pernicious anemia in this patient.
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PMID:[Postgastrectomy megaloblastic anemia--possible participation of anti-intrinsic factor antibody in its pathogenesis--report of a case]. 236 43

Electrolytic imbalance is a frequent finding in malabsorption syndrome. Derangement of calcium metabolism present clinically in different variants is most serious. Some patients develop hypocalcemia manifesting clinically with specific myasthenia, paresthesias, convulsions, hemorrhages, etc. In other variants severe skeletal lesions are seen which may become dominating in the clinical picture though hypocalcemia was absent. Investigation of calcium metabolism, hormonal profile (parathormone, in particular) in malabsorption syndrome can prognosticate and prevent the onset of osteomalacia.
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PMID:[Osteopathy in malabsorption syndromes]. 261 13

Calcium deficiency causes osteoporosis in experimental animals because the skeleton is sacrificed for the preservation of the plasma (ionic) calcium and to meet obligatory calcium losses in the feces and urine. (Vitamin D deficiency, on the other hand, causes rickets and osteomalacia largely because of the loss of the calcemic action of vitamin D, which leads to hypocalcemia, secondary hyperparathyroidism, and hypophosphatemia.) The concept that human osteoporosis, particularly in postmenopausal women, results from negative calcium balance represents a working hypothesis that fits many, but not all of the available data. In normal women, the crucial event is a rise in obligatory urinary calcium loss, which may result from an increase in the complexed fraction of the plasma calcium, due in turn to an increase in plasma bicarbonate. Prospective trials with calcium supplements have, however, yielded conflicting results. In osteoporotic women, a further increase in urinary calcium combined with calcium malabsorption produces a further increase in bone resorption, but some impairment of bone formation due to declining androgens may constitute an additional risk factor with advancing age. The suppressibility of urinary hydroxyproline by calcium supplementation in those patients who can absorb calcium, and by calcitriol in those who cannot, supports the calcium deficiency model, but more trials are needed to establish its validity.
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PMID:The calcium deficiency model for osteoporosis. 264 3

A male born to first cousins presented at 12 months with hypocalcemic convulsions, rickets, epistaxis due to vitamin K deficiency, and extremely low serum levels of beta-carotene and vitamin A. Liver function was altered moderately (glutamic-oxaloacetic transaminase, 55 U/L; glutamic-pyruvic transaminase, 37 U/L; lactate dehydrogenase, 255 U/L; alkaline phosphatase, 437 U/L). To correct the deficiencies, 8,000 IU vitamin D/day, 10,000 IU vitamin A/day, and intramuscular administration of vitamin K1 were required. At 9 years, he presented signs of neuromuscular affection, and the serum vitamin E level (measured for the first time) was extremely low. Classic lipid malabsorption syndromes (abetalipoproteinemia, chronic cholestasis, mucoviscidosis, coeliac disease, Whipple's disease) were excluded by appropriate examinations. Composition of duodenal bile acids was characterized by undetectable levels of cholic acid metabolites, and only chenodeoxycholic acid metabolites were present. Serum total bile acid concentration was normal, with an atypical low cholic acid/chenodeoxycholic acid ratio and abnormal presence of 3 beta-OH-delta 5-cholenic acid and 6-OH-bile acids. Urinary bile acid composition was also characterized by elevated 6-OH-bile acids. Known enzymopathies of the bile acid synthetic pathway were excluded (cerebrotendinous xanthomatosis, cerebro-hepato-renal syndrome of Zellweger, coprostanic acidemia). Bile acid pool sizes were determined by using stable isotopes: cholic acid pool size [2.90 (N, 32 +/- 16) microM/kg] and chenodeoxycholic acid pool size [10.8 (N, 32.6 +/- 9.9) microM/kg] were extremely low; fractional turnover rates of both bile acids were in a normal range.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Malabsorption of liposoluble vitamins in a child with bile acid deficiency. 379 31

Lactose tolerance tests with breath hydrogen determination were performed on 585 apparently healthy adolescents and adults in the Democratic Republic of the Sudan. Out of the total, 303 probands belong to the tribal group Beja, traditional nomadic pastoralists in the desert zone between the Nile and the Red Sea. The 282 Nilotes (mainly Dinka) are members of seminomadic cattle breeding tribes in the south of the Sudan. In both populations milk consumption is substantial but only in the Beja true milk dependence, sufficient to result in selective pressures in favour of the lactase persistence allele, is likely to exist. The proportion of lactose malabsorbers was 16.8% in the Beja and 74.5% in the Nilotes. The high prevalence of lactose malabsorption among the Nilotes fits into a converging gradient of lactase gene frequencies along the Nile Valley. The Beja are the first nomadic desert population in North Africa in whom a high prevalence of lactase persistence has been demonstrated on a numerically sufficient sample.
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PMID:Beja and Nilotes: nomadic pastoralist groups in the Sudan with opposite distributions of the adult lactase phenotypes. 681 Jul 4

Magnesium deficiency may complicate many diseases. The causes include the following: inadequate intake during starvation or increased requirement during early childhood, pregnancy, or lactation; excessive losses of magnesium as a result of malabsorption from the gastrointestinal tract or from the kidneys during use of diuretics; and to a combination of the two, as in alcoholism. Most often the etiological factors have been operative for a month or more. Acute hypomagnesemia can occur without previous Mg deficiency after epinephrine, cold stress and stress of serious injury or extensive surgery. The clinical manifestations depend on the age of the patient and may begin insidiously or with dramatic suddenness, or there may be no overt symptoms or signs. The manifestations can be divided into the following categories: totally non-specific symptoms and signs ascribable to the primary disease; neuromuscular hyperactivity including tremor, myoclonic jerks, convulsions, Chvostek sign, Trousseau sign (rarely), spontaneous carpopedal spasm (rarely), ataxia, nystagmus and dysphagia; psychiatric disturbances from apathy and coma to some of all facets of delirium; cardiac arrhythmias including ventricular fibrillation and sudden death; hypocalcemia which is responsive only to Mg therapy; and hypokalemia which is not easily nor completely corrected without Mg therapy. The diversity of etiologies and the multiplicity of manifestations result in confusion and controversy. The documentation of normal renal function is absolutely necessary for maximum doses. The order of magnitude of dose is 1.0 meq Mg/kg on day 1, and 0.3 to 0.5 mEq/kg per day for 3 to 5 days. In emergencies such as convulsions or ventricular arrhythmias, a bolus injection of 1.0 gm (8.1 meq) of MgSO4 is indicated. Therapy of Mg deficiency in the presence of renal insufficiency requires smaller doses and frequent monitoring. Complete repletion occurs slowly.
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PMID:Magnesium deficiency. Etiology and clinical spectrum. 702 Mar 47

Several vitamins have been demonstrated to interfere with the pathogenesis of some metabolic diseases, mainly by three different mechanisms: 1) vitamin malabsorption, 2) errors in vitamin metabolism, 3) vitamin dependent syndromes. The latter is due to a deficiency of the apoenzyme whose coenzyme is the vitamin itself. In this case pharmacological, instead of nutritional doses of the vitamin may be needed. The vitamins which interfere with inborn metabolic errors are reviewed; for each vitamin the corresponding diseases which may be treated are indicated. The vitamins are: 1) thiamine (leucinosis); b) nicotinic acid (hyperlipoproteinemia); c) biotin (beta-methyl-crotonyl-glycinuria, propionic aciduria); d) pyridoxine (infantile convulsions, familial pyridoxine responsive anemia, homocystinuria, cystathioninuria, xanthurenicaciduria); e) cobalamins (congenital intrinsic factor deficiency, cobalamin malabsorption, transcobalamin deficiency, methylmalonic aciduria) f) folic acid (congenital folic acid malabsorption, formimino-transferase deficiency, methylenetetrahydrofolic reductase deficiency, Lesch-Nyhan syndrome); g) vitamin D (phosphatic diabetes, Prader's type rickets, Albright's syndrome; essential hereditary hypophosphatemia, etc). It is noteworthy that the vitamin therapy of these diseases, not only corrects the metabolic errors, but can also promote the healing or the amelioration of the psycho-physical growth, of central nervous system alterations and of other lesions.
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PMID:[Vitamins in metabolic diseases]. 702 68

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